Unique functional neuroimaging signatures of genetic versus clinical high risk for psychosis

  1. Charles H. Schleifer
  2. Sarah E. Chang
  3. Carolyn M. Amir
  4. Kathleen P. O’Hora
  5. Hoki Fung
  6. Jee Won D. Kang
  7. Leila Kushan-Wells
  8. Eileen Daly
  9. Fabio Di Fabio
  10. Marianna Frascarelli
  11. Maria Gudbrandsen
  12. Wendy R. Kates
  13. Declan Murphy
  14. Jean Addington
  15. Alan Anticevic
  16. Kristin S. Cadenhead
  17. Tyrone D. Cannon
  18. Barbara A. Cornblatt
  19. Matcheri Keshavan
  20. Daniel H. Mathalon
  21. Diana O. Perkins
  22. William Stone
  23. Elaine Walker
  24. Scott W. Woods
  25. Lucina Q. Uddin
  26. Kuldeep Kumar
  27. Gil D. Hoftman
  28. Carrie E. Bearden
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Abstract

Background

22q11.2 Deletion Syndrome (22qDel) is a copy number variant (CNV) associated with psychosis and other neurodevelopmental disorders. Adolescents at clinical high risk for psychosis (CHR) have subthreshold psychosis symptoms without known genetic risk factors. Whether common neural substrates underlie these distinct high-risk populations is unknown. We compared functional brain measures in 22qDel and CHR cohorts and mapped results to biological pathways.

Methods

We analyzed two large multi-site cohorts with resting-state functional MRI (rs-fMRI): 1) 22qDel (n=164, 47% female) and typically developing (TD) controls (n=134, 56% female); 2) CHR individuals (n=244, 41% female) and TD controls (n=151, 46% female) from the North American Prodrome Longitudinal Study-2. We computed global brain connectivity (GBC), local connectivity (LC), and brain signal variability (BSV) across cortical regions, testing case-control differences for 22qDel and CHR separately. Group difference maps were related to published brain maps using autocorrelation-preserving permutation.

Results

BSV, LC, and GBC are significantly disrupted in 22qDel compared with TD controls (False Discovery Rate q<0.05). Spatial maps of BSV and LC differences are highly correlated with each other, unlike GBC. In CHR, only LC is significantly altered versus controls, with a different spatial pattern compared to 22qDel. Group differences map onto biological gradients, with 22qDel effects strongest in regions with high predicted blood flow and metabolism.

Conclusion

22qDel and CHR exhibit divergent effects on fMRI temporal variability and multi-scale functional connectivity. In 22qDel, strong and convergent disruptions in BSV and LC not seen in CHR individuals suggest distinct functional brain alterations.

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  1. Version published to 10.1101/2024.04.03.587988v1 on bioRxiv